The document discusses trends driving the growth of smart cities and provides a vision of what smart cities of the future may look like. It then presents IDC Government Insights' smart city maturity model, which defines five stages of maturity for smart cities - from ad hoc to optimized. Finally, it outlines five best practice areas and related success factors that cities need to address to progress toward becoming truly smart cities. These best practice areas include both non-technology and technology factors such as leadership, infrastructure, data usage, and more.
In this presentation, Venkatesh introduces IoT and associated trends. His interest area lies in analytics of data obtained through sensors. Some of his ideas include predicting mean sea level based on Oxygen levels, Intelligent transport systems etc.
In this presentation, Venkatesh introduces IoT and associated trends. His interest area lies in analytics of data obtained through sensors. Some of his ideas include predicting mean sea level based on Oxygen levels, Intelligent transport systems etc.
This presentation gives a high level view of Internet of Things and where it stands today. It also contains a slide on how a Temperature Logger was built out using Arduino, Python and the Google Cloud Platform.
Internet of things adoption is expanding at phenomenal phase. The concept of IOT is to embed sensors and transceivers into different devices which can then transmits data to each other and to cloud through Internet, building analytics to comprehend this data and use this understanding to find solution for everyday issues. New domains for IOT are being explored and one such is to use IOT in urbanization of cities. In the context has evolved the term Smart Cities. There are already cities like Amsterdam, Barcelona, Stockholm, New York which has implemented several aspects of Smart Cities and nations like Singapore and India are moving in that direction. It is expected by 2025 there will be 26 global smart cities. So what is a smart city
Overcoming the cybersecurity challenges of smart citiesSaeed Al Dhaheri
This presentation was presented during the "Towards Dubai 2020 Smart City Conference held at the University of Dubai on 15th January 2017. The presentation highlights the importance of cybersecurity strategic planning for smart cities and discuss the Cybersecurity challenges facing smart cities initiatives and solutions.
The Internet of Things (IoT) is a term used to describe a network of interconnected devices that are able to communicate with each other and share data. These devices can be anything from smart appliances in your home to sensors in a manufacturing plant or even wearable devices like fitness trackers. The applications of IoT are numerous and continue to expand as technology advances. In this article, we'll explore some of the most important and interesting applications of IoT.
Smart Homes and Buildings
One of the most well-known applications of IoT is in smart homes and buildings. IoT devices can be used to control everything from temperature and lighting to security systems and home entertainment systems. Smart home devices can be controlled remotely through smartphones or other devices, and can even be automated based on the user's preferences and routines.
Smart buildings take this concept a step further, with IoT sensors and systems used to optimize energy usage, monitor air quality, and even control elevators and other building systems. These applications can help reduce energy costs, improve safety, and enhance the overall user experience.
Healthcare
IoT has a variety of applications in the healthcare industry, from wearable devices that monitor vital signs to smart pills that track medication usage. IoT sensors can also be used to monitor patients in hospital settings, allowing medical staff to detect changes in a patient's condition more quickly and respond accordingly.
In addition, IoT devices can be used for remote patient monitoring, allowing patients to receive care in their own homes rather than having to travel to a medical facility. This can improve patient outcomes and reduce healthcare costs.
Agriculture
IoT sensors and systems are increasingly being used in the agricultural industry to optimize crop yields and reduce waste. These sensors can be used to monitor soil moisture, temperature, and nutrient levels, allowing farmers to make more informed decisions about when and how to water and fertilize their crops.
In addition, IoT systems can be used to track the movement and health of livestock, helping farmers to detect and respond to potential health issues more quickly.
Manufacturing
IoT is also being used in the manufacturing industry to improve efficiency and reduce waste. IoT sensors can be used to monitor equipment and machinery, providing real-time data on performance and identifying potential maintenance issues before they become more serious
In this presentation, Parul introduces IoT and gives examples of interesting applications in that space. Parul is interested in data management and insights that come out of IoT clas devices.
While 6G is as yet 10 years away, organizations that keep themselves up to date with what this next networking architecture has to bring to the table will have a decisive advantage over their competitors.
While 5G commercialization is still in its initial stage, it's never too soon to begin planning for 6G on the grounds that it regularly takes around 10 years from the beginning of exploration to commercialization of new generation of communications technology.
Most tech insiders trust 6G would need to hit two or three benchmarks first beginning with a hyper-quick information rate that beats 5G, with download paces of at any rate 1,000Gbps (multiple times the speed of 5G) and record-breaking all-time low latency, or “air latency” of under 100 μs, start to finish (E2E) inertness under 1 ms, and amazingly low delay jitter in order of microseconds.
Technology doesn't rest.
Despite the fact that the 5G Technology is still in the beginning of its arrangement, the tech world is now bantering around thoughts on what the next generation – 6G – might resemble.
This isn't startling on the grounds that the technology that goes into 5G's replacement will set aside some effort to create.
Tonex offers 6G Introduction, IMT-2030, a one-day course covering the planning inspiration and basic technology of 6G engineering, just like the new 6G terminology. Members are familiar with the comparison between 5G and 6G, and understand how 6G achieves its goals by understanding the functions of 6G.
Introduction to 6G Course by Tonex
IMT-2030 is an introduction to 6G, a one-day overview of 6G technology consistent with ITU-T IMT-2030. Learn about 6G wireless systems, use cases, applications, trends, technologies and protocols.
6G or IMT-2030 is the future of mobile networks promised by ITU-T network 2030. Tonex now offers training courses to help develop the next generation of 6G skills.
Who Should Attend
This one-day training course covers the design motivation and basic technology of 6G architecture, as well as new 6G vocabulary. You will also understand the difference between 5G and 6G, and understand how 6G will achieve its goals by observing how 6G works.
An advanced 6G technical overview for anyone involved in 6G product development, product management, analysis, planning, design and engineering.
Learning Objectives
Describe the 6G vision and business case Explain the key technologies and basic components of 6G networks
Draw end-to-end 6G network architecture, including new radio types, core networks and applications
Gradually complete the evolution from 5G to 6G
Course outline
Overview of 6G Wireless Networks
6G Vision, Architecture, and Key Technologies
Hologram Type Communications
Learn More
Introduction to 6G, Prepare Now Training
https://www.tonex.com/introduction-to-6g-prepare-now-training/
The presentation introduces with the concept of "Internet of Things - IoT", it will cover IoT definition, some internet survey statistics, future growth of Internet and how it will connect the physical world objects with the virtual world, Applications of IoT Enabled World, Technical risks associated with it and a sweet video demonstrates the IoT concept of IoT enabled home.
INTRODUCTION
IoT history
IoT world
IoT in Gartner Hype cycle
IoT economic impact and trends
ABOUT IoT
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
APPLICATIONS OF IoT
Selection of impacting examples
IS IoT FOR YOU?
List of questions to help you moving forward!
Why should you start exploring IoT opportunities?
Preliminary questions before jumping in (Skills, assets…)
This presentation gives a high level view of Internet of Things and where it stands today. It also contains a slide on how a Temperature Logger was built out using Arduino, Python and the Google Cloud Platform.
Internet of things adoption is expanding at phenomenal phase. The concept of IOT is to embed sensors and transceivers into different devices which can then transmits data to each other and to cloud through Internet, building analytics to comprehend this data and use this understanding to find solution for everyday issues. New domains for IOT are being explored and one such is to use IOT in urbanization of cities. In the context has evolved the term Smart Cities. There are already cities like Amsterdam, Barcelona, Stockholm, New York which has implemented several aspects of Smart Cities and nations like Singapore and India are moving in that direction. It is expected by 2025 there will be 26 global smart cities. So what is a smart city
Overcoming the cybersecurity challenges of smart citiesSaeed Al Dhaheri
This presentation was presented during the "Towards Dubai 2020 Smart City Conference held at the University of Dubai on 15th January 2017. The presentation highlights the importance of cybersecurity strategic planning for smart cities and discuss the Cybersecurity challenges facing smart cities initiatives and solutions.
The Internet of Things (IoT) is a term used to describe a network of interconnected devices that are able to communicate with each other and share data. These devices can be anything from smart appliances in your home to sensors in a manufacturing plant or even wearable devices like fitness trackers. The applications of IoT are numerous and continue to expand as technology advances. In this article, we'll explore some of the most important and interesting applications of IoT.
Smart Homes and Buildings
One of the most well-known applications of IoT is in smart homes and buildings. IoT devices can be used to control everything from temperature and lighting to security systems and home entertainment systems. Smart home devices can be controlled remotely through smartphones or other devices, and can even be automated based on the user's preferences and routines.
Smart buildings take this concept a step further, with IoT sensors and systems used to optimize energy usage, monitor air quality, and even control elevators and other building systems. These applications can help reduce energy costs, improve safety, and enhance the overall user experience.
Healthcare
IoT has a variety of applications in the healthcare industry, from wearable devices that monitor vital signs to smart pills that track medication usage. IoT sensors can also be used to monitor patients in hospital settings, allowing medical staff to detect changes in a patient's condition more quickly and respond accordingly.
In addition, IoT devices can be used for remote patient monitoring, allowing patients to receive care in their own homes rather than having to travel to a medical facility. This can improve patient outcomes and reduce healthcare costs.
Agriculture
IoT sensors and systems are increasingly being used in the agricultural industry to optimize crop yields and reduce waste. These sensors can be used to monitor soil moisture, temperature, and nutrient levels, allowing farmers to make more informed decisions about when and how to water and fertilize their crops.
In addition, IoT systems can be used to track the movement and health of livestock, helping farmers to detect and respond to potential health issues more quickly.
Manufacturing
IoT is also being used in the manufacturing industry to improve efficiency and reduce waste. IoT sensors can be used to monitor equipment and machinery, providing real-time data on performance and identifying potential maintenance issues before they become more serious
In this presentation, Parul introduces IoT and gives examples of interesting applications in that space. Parul is interested in data management and insights that come out of IoT clas devices.
While 6G is as yet 10 years away, organizations that keep themselves up to date with what this next networking architecture has to bring to the table will have a decisive advantage over their competitors.
While 5G commercialization is still in its initial stage, it's never too soon to begin planning for 6G on the grounds that it regularly takes around 10 years from the beginning of exploration to commercialization of new generation of communications technology.
Most tech insiders trust 6G would need to hit two or three benchmarks first beginning with a hyper-quick information rate that beats 5G, with download paces of at any rate 1,000Gbps (multiple times the speed of 5G) and record-breaking all-time low latency, or “air latency” of under 100 μs, start to finish (E2E) inertness under 1 ms, and amazingly low delay jitter in order of microseconds.
Technology doesn't rest.
Despite the fact that the 5G Technology is still in the beginning of its arrangement, the tech world is now bantering around thoughts on what the next generation – 6G – might resemble.
This isn't startling on the grounds that the technology that goes into 5G's replacement will set aside some effort to create.
Tonex offers 6G Introduction, IMT-2030, a one-day course covering the planning inspiration and basic technology of 6G engineering, just like the new 6G terminology. Members are familiar with the comparison between 5G and 6G, and understand how 6G achieves its goals by understanding the functions of 6G.
Introduction to 6G Course by Tonex
IMT-2030 is an introduction to 6G, a one-day overview of 6G technology consistent with ITU-T IMT-2030. Learn about 6G wireless systems, use cases, applications, trends, technologies and protocols.
6G or IMT-2030 is the future of mobile networks promised by ITU-T network 2030. Tonex now offers training courses to help develop the next generation of 6G skills.
Who Should Attend
This one-day training course covers the design motivation and basic technology of 6G architecture, as well as new 6G vocabulary. You will also understand the difference between 5G and 6G, and understand how 6G will achieve its goals by observing how 6G works.
An advanced 6G technical overview for anyone involved in 6G product development, product management, analysis, planning, design and engineering.
Learning Objectives
Describe the 6G vision and business case Explain the key technologies and basic components of 6G networks
Draw end-to-end 6G network architecture, including new radio types, core networks and applications
Gradually complete the evolution from 5G to 6G
Course outline
Overview of 6G Wireless Networks
6G Vision, Architecture, and Key Technologies
Hologram Type Communications
Learn More
Introduction to 6G, Prepare Now Training
https://www.tonex.com/introduction-to-6g-prepare-now-training/
The presentation introduces with the concept of "Internet of Things - IoT", it will cover IoT definition, some internet survey statistics, future growth of Internet and how it will connect the physical world objects with the virtual world, Applications of IoT Enabled World, Technical risks associated with it and a sweet video demonstrates the IoT concept of IoT enabled home.
INTRODUCTION
IoT history
IoT world
IoT in Gartner Hype cycle
IoT economic impact and trends
ABOUT IoT
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
What is IoT ?
IoT market environment
Technologies behind IoT
IoT global roadmap
APPLICATIONS OF IoT
Selection of impacting examples
IS IoT FOR YOU?
List of questions to help you moving forward!
Why should you start exploring IoT opportunities?
Preliminary questions before jumping in (Skills, assets…)
The population of cities around the world is increasing, and cities are struggling to cope.
As a silent force transforming the world, technology is now being used to manage the rapid urbanization process and create smarter cities.
The Internet of Things (IoT) has become an important part of creating a more efficient, sustainable, and resilient city, and demonstrated the growing impact it will have on people and the planet.
The Contribution of Technologies in the Development of Smart Cities.Techugo
Technologies are driving the development of smart cities by enabling efficient infrastructure, data-driven decision-making, IoT connectivity, renewable energy solutions, and improved services for citizens, fostering sustainability and quality of life.
Digital Twin Cities are advanced urban areas where physical and digital realms are integrated, allowing for data-driven management, intelligent services, and interactive systems. READ MORE
How relevant is the age of a city in determining its interest in, and ability to use, 'big data'? This briefing explores how both old and new cities have distinct advantages and disadvantages in their ability to use big data effectively, the lessons they can learn from each other, and their common challenges.
These days, in our industry, two words have the highest exposure rate. One is 5G, and the other is a smart city.
The Internet of Things, cloud computing, big data, artificial intelligence, these new concepts have emerged one after another, promoting the entire society to accelerate toward informatization, digitization, and intelligence.
Big bosses from all walks of life are keeping a close eye on technological trends, hoping to take the lead in introducing technology, improving production efficiency, and realizing digital transformation.
As a result, various hotspot terms have emerged one after another, such as 5G smart factory, 5G smart park, 5G smart agriculture, 5G smart shopping malls, and so on.
The smart city originated in the media field, which refers to the use of various information technologies or innovative concepts to open up and integrate the city's systems and services to improve the efficiency of resource utilization, optimize city management and services, and improve the quality of life of citizens.
The white paper discusses the history, risks, advantages and disadvantages of Smart Cities with a focus on its economic benefits, cost of implementation and challenges. It includes a case study of Smart City development in Dubai.
Content:
– Executive Summary
– What is a Smart City?
– History
– Advantages
– Disadvantages
– Challenges and Keys to Successful Implementation
– Risks
– Economic Benefits
– Cost of Implementation
– Building Blocks
– Expert Opinion
– Case Study
– Future
– Conclusion
The 2014 edition of the Networked Society City Index examines and ranks 40 cities from around the world, looking at their performance, challenges and opportunities in terms of ICT, sustainability and development. The extensive research gives us a glimpse into the future of the city.
The report also continues to explore the connection between ICT maturity and triple bottom line development in cities around the world.
Smart Cities Market: Advancing Towards a Connected and Resilient Futureajaykumarpmr
The concept of smart cities, leveraging technology to enhance urban living, is rapidly gaining traction worldwide. Smart cities integrate various digital technologies, data analytics, and connectivity solutions to improve infrastructure, services, and quality of life for residents. The global smart cities market is witnessing robust growth, driven by urbanization, sustainability initiatives, and the pursuit of efficient urban management. According to Persistence Market Research's projections, the smart cities market to expand at a significant CAGR of 10.3%, reaching an estimated value of US$ 1274.5 billion by 2033, up from US$ 525.8 billion in 2024.
Abstract:
In 2050, the number of people living in cities will be almost as large as the world’s entire population today. That’s why we need completely new approaches to be taken in order to make our cities to be Smart City. Smart Cities gained importance as a means of making ICT enabled services and applications available to the citizens, and authorities that are part of a city’s system. It aims at increasing citizens’ quality of life, and improving the efficiency and quality of the services provided by governing entities and businesses. Smart City is a type of city that uses new technologies to make them more livable, functional, competitive and modern through the use of new technologies, the promotion of innovation and knowledge management. Cities today are facing significant challenges including increasing populations, infrastructures, and declining budgets.
AI is now an important component of sectors such as healthcare, agriculture, public administration and transportation, and is helping to address major challenges such as ageing and climate change. However, there is currently a lack of transparency in algorithmic governance systems, and this is worsened when these algorithms are integrated into already opaque governance structures in our cities. Moreover, over the past decade, the propagation of sensors and data collection machines in so-called ‘smart cities’ by both the public and the private sectors has created democratic challenges around AI, surveillance capitalism, and protecting citizens’ digital rights to privacy and ownership.
The development of smart city leading to a progressive abandonment of rural areas towards greater cities and metropolis, which can offer many opportunities in terms of work, education, social life and so on. It can solve traffic congestion, school overcrowding, air pollution, loss of open space and skyrocketing public facilities cost.
World Economic Forum Tipping Points ReportSergey Nazarov
Describes how 10% of global GDP will be on the blockchain and the value of the monumental shift started by Bitcoin.
Features SmartContract.com as The Shift in Action" for blockchain technology.
As new technologies enter cities, more population relocate to cities from underdeveloped parts
of a state. The increase in population attracts more technology investors into the cities which in turn attract
more people into the cities. This is a cumulative process which has raised issues of scarcity of resources and
lack of security among the increased population in the urban areas. The concept of Smart cities is viewed as a
solution to this problem thus enhancing the quality of existing public services. Internet of Things (IoT) is an
approach to build smart cities by interconnecting almost everything and increasing transparency in services.
IoT follows heterogeneous network architecture with application specific protocols. This paper presents the
importance of smart cities and IoT approach towards achieving the smartness.
Analyzing Role of Big Data and IoT in Smart CitiesIJAEMSJORNAL
Big data and Internet of Things (IoT) technologies have evolved and expanded tremendously and hence play a major role in building feasible initiatives for smart city development. IoT and big data form a perfect blend in bringing an interesting and novel challenge to attain futuristic smart cities. These new challenges mainly focus on business and technology related issues that help smart cities to formulate their principles, vision, & requirements of smart city applications. In this paper, the role of big data and IoT technologies with respect to smart cities is analyzed. The benefits that smart cities will have from big data and IoT are also discussed. Various challenges faced by smart cities in general related to big data and IoT have also been described here. Moreover, the future statistics of IoT and big data with respect to smart cities is also deliberated.
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Smart cities and the Internet of Things
1.
WHITE PAPER
Smart Cities and the Internet of Everything:
The Foundation for Delivering Next-Generation
Citizen Services
Sponsored by: Cisco
Ruthbea Yesner Clarke
October 2013
INTRODUCTION
Smart City development is a question of when not if, a question of how not what. Why? Because we
live in a world experiencing economic turmoil, climate change, aging populations, and rapid
urbanization. But we also live in the midst of tremendous technological innovations that have the
potential to address the issues that challenge every city.
Smart Cities are a future reality for municipalities around the world. These cities will use the power of
ubiquitous communication networks, highly distributed wireless sensor technology, and intelligent
management systems to solve current and future challenges and create exciting new services. Smart
City officials will be essential visionary leaders who drive Smart City progress using public-private
partnerships to invest in scalable projects, smart regulation to connect city laws to new digital realities,
and innovation clusters to create jobs and vibrant economies.
Smart City technologies integrate and analyze massive amounts of data to anticipate, mitigate, and
even prevent many problems. This data is leveraged, for example, to intelligently reroute traffic and
reduce accidents, identify crime hot spots and target resources for crime reduction, and connect
citizens at work or out on the town. Smart Cities proactively provide services, notifications, and
information to citizens such as where to find a parking spot or a new local shop or even to monitor air
pollution. Smart Cities connect citizens to local government and encourage more direct participation,
interaction, and collaboration. And Smart Cities provide solutions that are economically and
environmentally sustainable. This is the potential future for every city and town.
This White Paper discusses trends driving Smart City growth, the vision for the Smart City of the
future, and the maturity cycle that cities can progress through to become a Smart City. It includes
real-world examples of cities on the path to a Smart City and lays out concrete actions that leaders can
take to move toward a well-managed Smart City.
October 2013, IDC Government Insights #GI243955
18. About IDC
International Data Corporation (IDC) is the premier global provider of market intelligence, advisory
services, and events for the information technology, telecommunications and consumer technology
markets. IDC helps IT professionals, business executives, and the investment community make factbased decisions on technology purchases and business strategy. More than 1000 IDC analysts
provide global, regional, and local expertise on technology and industry opportunities and trends in
over 110 countries worldwide. For more than 48 years, IDC has provided strategic insights to help our
clients achieve their key business objectives. IDC is a subsidiary of IDG, the world's leading
technology media, research, and events company.
Global Headquarters
211 North Union Street, Suite 105
Alexandria, VA 22314
USA
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www.idc.com
Copyright Notice
Copyright 2013 IDC Government Insights. Reproduction without written permission is completely forbidden.
External Publication of IDC Government Insights Information and Data: Any IDC Government Insights information
that is to be used in advertising, press releases, or promotional materials requires prior written approval from the
appropriate IDC Government Insights Vice President. A draft of the proposed document should accompany any
such request. IDC Government Insights reserves the right to deny approval of external usage for any reason.